Mechanical calculator.



F. B. WEBNBR.

MECHANICAL CALCULATOR. APPLICATION n'Lnn SEPT. 1a, 1 07.

Patented May 14,1912.

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F. E. 'WEBNER.

MECHANICAL CALCULATOR.

APPLICATION FILED SEPT. 13, 1907.

1,026,064. Patented May 14, 1912.

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Patented May 14, 1912.

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F. E. WERNER. MECHANICAL CALCULATOR.

APPLICATION FILED SIB-P1213, 1907.

1,026,064. Patented May14, 1912.

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MECHANICAL CALCULATOR. APPLIOATIOH rum) 811F113, 1901.

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Patented May 14, 1912.

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P. E. WEBNER.

MECHANICAL CALCULATOR.

uruoumx IILED SEPT. 13, 1901.

1,026,064. Patented May 14, 1912.

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Wt messes 52 APPLICATION FILED SEPT. 13, 1907.

Patented May 14, 1912.

11 SHEETS-SHEET 11.

UNITED STATES 3. 1m OFFICE.

FRANK E. WEBNEB, F NORWOOD, OHIO, ASSIGNOR TO THE AMERICAN MECHANICAL CALCULATOR COMPANY, OF CINCINNATI, OHIO:

MECHANICAL CALCULA'LOR.

Specification of Letters Patent.

Patented May 14, 1912.

To all whom it may concern Be it known that I, FRANK E. WERNER, a citizen of the United States, resident of Norwood, county of Hamilton, and State of Ohio, have invented a certain new and useful Improvement in Mechanical Calculators,

' of which the following is a specification.

The objects of my invention are to provide novel, simple and efficient meansfor mechanically calculating elapsed time or making other calculations involving subtractions; means for mechanically calculating wages, or prices, or making other multiplications; means for printing the results on slips representing single transactions; means for printing the results on record strips; means for adding the results; means for mechanically calculating the totals;

means for printing the totals; and to produce calculating mechanism which requires no mathematical calculations on the part of the operator, and which dispenses with the use of key boards or equivalent devices which require manipulation for each digit of the number to be added or multiplied.

My invention consists in the parts and combination and arrangement of parts hereinafter described and claimed.

In the drawings Figurel is a plan view with the top of the casing removed and the adding and totaling mechanism omitted; Fig. 2 a front longitudinal sectional elevation but not showing the mechanism beyond line &-4: of said figure; Fig. 3 a sectional elevation on line 33 of Fig. 2; Fig. 4 a sectional elevation on line 44 of Fig. 2; Fig. 5 a detailed sectional elevation on line 5 5 of Fig. 1; Fig. 6 a section on line 6-6 of Fig. 3; Figs. 7 to 12 details of the car'- riers, stepped elements and spacing block;

Fig. 13 an end elevation of the adding, recording and totaling mechanism; Fig. 14 a plan view of the adding and totaling mechanism; Figs. 15 to 21 details of totaling mechanism and Fig. 22a plan view of the dial plate; Fig. 23 a perspective view of the machine as it appears in its casing; Fig. 241 a face view of .a workmans time card; Fig. 25 a face view of a part of the record ribbon; Fig. 26 aperspective view of a part of the operating mechanism; Figs. 27 and 28 details; Fig. 29, an enlargedview similar to Fig. 6; Fig. 30 a section on the line30-30 of Fig. 29; Fig. 31 an elevation of the mechanism shown in Fig. 21; Fig. 32 a section on the line 3232 of Fig. 31.

I have illustrated my invention as applied to wage computation upon the time system, but 1t is equally applicable to wage computation upon the piece system or to price computation, or to any computation wherein it is practicable to deal with a selected number of multipliers and multiplicands. F or convenience the wage rate will be treated as the multiplicand, the elapsed time as the multiplier and the product obtained by multiplication of the figures denoting the wage rate, by the figures denoting any period of elapsed time as the multiple. When the time system is employed it is not usual to count periods of less than ten minutes and I have selected as an exemplification a machine in which the lowest unit of time counted is ten minutes,-and which is designedto ascertain and print products not exceeding four figures, but it will be understood that the range of work can be readily increased without departing from the plan of operation.

The machine is so constructed that by turning a hand wheel 5 (Figs. 1 and 23) it may be set for dealing with any one ofa selected number of wage rates. A rotatable dial plate 22 graduated to represent hours and fractions thereof is turned to bring the time of beginning work as indicated by theworkmans time card and by the dial plate opposite a fixed polnter 29. Then by moving a hand bar 24 to a position relatively to the dial plate which indicates the time of finishing Work as shown by the time card, the mechanism is positioned for printing the elapsed time and the wage for that time. By turning a hand wheel 41 two revolutions, the elapsed time and the wage for that time isprinted upon the time card and upon a record strip, the adding mechanism actuated and the mechanism restored to position for another computation. By turning a hand bar 106 (Fig. 21) two revolutions, the time and wagecomputing and adding mechanism may be disconnected, the

totals printed, and the mechanism restored v to position for another computation.

illultiplz'cands, multipliers, and multi pZea+The numeral 1, (Figs. 2, 3) indicates a shaft, extending longitudinally of the frame, and carrying a gear 2 meshing with a gear 3 mounted on a stud shaft 4 which is provided with a hand wheel 5 by which, through the connecting mechanism, rotary motion may be imparted to shaft 1. Fixed to shaft 1 are sprocket wheels 6 and a supporting wheel 7. The sprocket wheels carry a sprocket chain or carrier 8 (Fig. 3) con sisting of a series of bars 9 including a bar for each wage rate, or multiplicand to be dealt with. The wheel 7 affords an additional support for the carrier chain. The bars are arranged in sequence, that for the lowest wage rate being first, that for the next higher rate next, and so on through the series. Upon each wage bar is mounted, preferably in dovetailed mortises, (Figs. 3, 79) a series of stepped blocks 10 in which the steps are arranged in accordance with a scale in which steps of different heights, or distance from the base, correspond with the numerals and in which the position of the step laterally determine the order of the corresponding numeral, that is: whether it is to count as units, tens, hundreds or thousands. If we assume that the unit of the scale is a half inch, that the highest step or stop is six and one half inches from the base and that the highest stop corresponds with naught, then a stop six inches from the base will correspond with one, a five and a half inch stop with two, a five inch stop with three, a four and a half inch stop with four, etc., the lowest stop being two inches from the base and corresponding with nine. The stops are equally spaced from side to side. Assuming that the space at the right (the blocks are reversible) corresponds with units, a step in the next space to the right -will correspond with tens, the next space with hundreds, etc., the position of the stop laterally, serving a purpose analogous to that of columns in dealing with actual figures. With this arrangement a block having a six inch stop, at the left, follows,from left to right, by a five inch stop, a four inch stop, and a three inch stop, would correond, in an arbitrary way with the numerals 1357 or, if the block is reversed, with-7531. Four six inch stops, or a flat top six inches from the base would correspond with 1111, four two inch stops with 9999, a two inch stop, followed by a'six and a half inch stop, a two inch stop and,a six and a half inch stop,,with 9090. 'It will be noted that by this system a block with four steps may be made to correspond, in an arbit-rar way; with any number up to .9999.

' In-like manner a block with five steps might be made to correspond with any number up to 99999, etc. These blocks serve as elements of, type selecting mechanism, the' steps serving as stopsto limit the motion of arms or fingers which, through intermediate mechamsm control the position of type carriers and determine whether one or another group of figures shall be printed. While neither the stops nor the blocks serve as indicators or carry any numerals, it will be convenient to speak of them as denoting the numerals or the series of numerals with which they correspond. Each block has a step for units, a step for tens, etc., and the steps in period of time generally taken into account, the next to denote 0004 (or 4 cents), the next to denote 0006 (or 6 cents) etc., the last block being stepped to denote 0144:

(or $1.44, the wage for twelve hours.) The sprocket chain, or carrier, is prefers.

ably merely suspended from the sprocket wheels 6 and supporting wheel 7 and extends loosely through the hottom of the casing to permit increasing the number of bars to adapt the machine for use with any desired number of wage rates.

Fixed upon shaft 1 is a third sprocket wheel 11, carrying a sprocket chain 12, which takes over and is adapted to actuate a sprocket wheel 11* mounted upon a shaft 13 which carries another sprocket wheel'lc, which in turn carries another sprocket chain 15, the links of which carry numerals indicating wage rates corresponding with those denoted by the wage bars and arranged in like sequence. The indicator chain takes over another sprocket wheel 14: preferably slidably mounted so that the number of links in the chain may be readily increased or decreased to correspond with the number of wage rates and wage bars required. In the form shown, sprocket wheel 1 1 is adjustably mounted in a slot 16 in a fixed frame ,17. A stationary bar 18 also extending longitudinally of the casing, and mounted inproximity to the path of travel of the movab e bars, carries a series of stepped blocks10 of the same general nature as the multiple blocks, but stepped to correspond with numerals denoting eriods of elapsed time. Inasmuch as ten minutes is the lowest unit of time to be counted these time or' multiple blocks require but three steps, one for tens of minutes, one for hours and one for tens of hours. A time block is providedfor each multiple block in a series, that is: the number of time 'blocks equals the number of wage or-multiplei blocks upon one rate bar. The time blocks are also arranged in series, that stepped to denote th'e' lowest period of elapsed time to be dealt with being first, that stepped for the next higher period of elapsed time second, etc. The blocks on the time bar are spaced and positioned to correspond with those on the rate bars. By rotating the carrier shaft 1 the bar 9 carrying blocks denoting multiples of any desired rate, or multiplicand, may be brought into juxtaposition with the bar 18 carrying blocks denoting the periods of elapsed time, or multipliers, the corresponding rate on the indicator chain being'disclosed through a peep hole 19 when the position is reached.

Type -selecting meehanism.Extending longitudinally of the casing and in proximity to the time bar and the path of travel of the rate bars, are two series of rock shafts 20 and 20 (Figs. 1, 3 and 4). Upon each of the rock shafts 20 is sleeved and splined a finger arm 21, adapted to engage with oneof the steps on the time blocks, and upon each of the rock shafts, 20, is sleeved and splined a finger arm 21-, adapted to engage with a step on the multiple blocks, the finger arms being so arranged that one of the finger arms 21 is adapted to engage the-step denoting the lowest unit of time, in this case tensof minutes, and that step only, another finger arm to engage the step denoting hours and another to engage with the step denoting tens of hours, and one of the finger arms 21 to engage the step denoting cents, another to engage the stem denoting tens of cents, etc.

Upon the casing is mounted a dial plate 22, (Figs. 2, 22) movable independently of the other mechanism and graduated in ten minute periods. In the form shown the dial plate is rotatable upon a shaft 23 upon which, above the dial plate, is fixed a hand bar 24 adapted to actuate the shaft. Fixed upon the shaft and within the casing is a cogged wheel 25, meshing with and adapted to actuate a rack bar 26 arranged to travel in a guide way 27. In the form shown the rack bar is jointed and the guide way curved in order to economize in space. The rack bar carries'a frame 28 (Fig. 1) adapted to engage with the ends of the sleeves on the finger arms 21 and 21 and, when moved, to cause the finger arms to travel upon the rock shafts. bar, the shaft 23, the cogged wheel 25, the rack bar 26 and the frame-28, may be actuated, thereby moving the finger arms along the rock shafts to bring them into operative alinement with any one of the time blocks and the corresponding multiple block. The

gearing is so arranged that movement of the hand bar over a ten minute period, a indicated on the dial plate, moves the frame a distance equal to that between the centers of two adjacent time or multiple blocks, etc.

Inasmuch as each time block represents a period of elapsed time, in asce'nding series,

By moving the hand it is only necessary to move the hand bar to the position denoting the desired period of elapsed time in order to bring the finger arms into operative alinement with the proper time and multiple blocks. To this the dial plate is set so that the pointer indicates the time of beginning work as shown by the time slip, and the hand bar moved to the position on the dial indicating the time of finishing work. It is not necessary that the operator should calculate mentally, or otherwise, the elapsed time. His only duty in this connection is to see that the dial is set to denote the time of beginning work and to turn the hand bar to the time of finishing work.

Means for actuating the type selectors I and type em'v'iers.-Fixed to each of the rock shafts 20 is a lever 30, (Figs. 1, 2, 4) having a downwardly extending arm pro vided' with a knob 31 adapted to be engaged by a yielding plunger 32 carried by a movable frame 33. In' the form shown, a coiled spring 34 is held. between a shoulder 35 on the plunger and an abutment on the movable frame. Movement of the frame actu ates the levers and consequently the rock shafts. Each of the levers 30 is connected by a link 36 with a sector 37 loosely mounted upon a shaft 38, and carrying-movable type 39. Two of these sectors fcarry type representing numerals, from naught to nine, and one carries type representing numerals from naught to five with a cipher added, (00, 10, 20, etc.) The type on these type carrieisprint the time in tens of hours, hours and tens of minutes. of the rock shafts 20 is a lever 30 of like description and adapted to be actuated in the same manner as levers 30, but connected by a link 36 with a type carrier 37 of like character with the type carriers 37. Each of the type carriers 37" carries type representing numerals from naught to nine, the

type on the carriers representing respectively tens of dollars, dollars, tens of cents and cents. 1

40 (Figs. 1, 2, 3, 4, 5, 6) designates a shaft extending longitudinally of the casing and adapted to be rotated bya handwheel 41. At the end opposite the hand wheel this shaft is connected by bevel gears 42 and 43 with ashaft 44, extending transversely of the casing, the gears being such that. two rotations of the longitudinal shaft 40 cause one rotation of the transverse shaft 44. Fixed to this shaft is a cam wheel 45, having a cam slot'46, which engages with a roller 47 carried by the movable frame 33, which carriesthe plungers which actuate the levers 30 and 30. Rotation of shaft 44 and cam wheel 45 actuates frame 33, and consequently the leve rs 30 and 30,,and restores them to their idle position. Actuation of the levers actuates the rock shafts Fixed to each 20 and 20 and thereby throws the type selecting arms 21 and 21 into engagement with the steps on the multiplier and multiple blocks with which they are in alinement. The steps and the type selecting arms limit the movement of the rock shafts,

and consequently of the levers 30 and 30 and the type carriers 37 and'37, the spring plungers 32 yielding to compensate for the difference between the then permitted limit of travel of the levers and their longest sweep. Each lever is so connected with the type carriers that, when a type selecting sitioned type.

the cam, and connected at its other end with a lever arm 50, carrying type hammers 51 adapted to engage with and actuate the po- A movable inked ribbon '52 winding on spools 52 is led past a slit in the casing over the operative position of the type and under a platen 53, preferably of hammer type. The platen is pivoted at, ,54

and arranged to be lifted by means of a cam wheel 55 on shaft 44, a notched lever arm 56 and a link 57 connecting the notched lever arm and the platen. The inked ribbon is mounted upon rollers 52 and maybe actu-.

ated by a pallet 57 carried by link 57 and acting upon a ratchet wheel 52 fixed to one of the rollers' 52. The cams are so adjusted that the hammer and the platen are tripped concurrently as the required type reach their position of use. It willbe understood that a wage slip is placed over the slit under the platen before these operations.

Recording meckanism.-For the purpose of keeping a record ofthe wage or other slips printed, the links 36 and 36 are extended to connect with type carriers 137 and 137. (Figs. 4, 13, 14, 23). These type carriers are duplicates, so far as: relates to arrangement of type, of type sectors 37 and 37, and they are used in connection with .an inking ribbon, platen and hammers like those previously described, the hammers being operated by a lever arm carried by a spring pressed arm 49, riding upon and adapted to be actuated by a cam wheel 48*, on shaft 44. A record ribbon 58, wound upon a reel 59 is fed under the platen by rollers 60. To

one of the rollers is fixed a ratchet wheel 61 adapted to be actuated by a spring pressed awl, 62 carried by a-lever 63' and connects a link .64 with the heel end of the hammer lever 5.0, whereby actuation of the hammer lever 'actuates the pawl.

It will be noted that .the recording mechanism is driven and controlled b the mechanism which drives and contro s the wagewheel of the next order.

slip printing mechanism and requires no additional operations upon the part of the attendant.

Adding mecham'sm.The type carriers, 137 and 137, (Figs. 4, 13, 14) are loosely mounted upon a common shaft 38 and each is provided with an arm 66 carrying a pin 67 adapted to be engaged by the walls of a notch 68 in an arm 69 pivoted to a lever arm 70 which extends fr0m.a frame 71 pivotally mounted on a shaft 72 and carrying a segmental rack 73. The rack meshes with and-is adapted to actuate a pinion 74 fixed to, or integral with, a disk 75 loosely mounted upon a shaft 76. The disk carries a pawl 77 adapted-to engage with and actuate a ratchet wheel 78 fixed to, or-integral with, a stepped adding wheel 79 also loosely mounted upon shaft 7 6. The steps on the adding wheels, like those on the multiplier and multiple blocks, de'note numerals but are arranged with the steps consecutive from the lowest to the highest. When one of the type carriers is moved into printing position, arm 66, being in engagement with pin 68 on arm 69 which is connected with lever arm 70 on the .rack frame 71, retracts the lever arm thereby imparting motion to the segmental rack 73 and actuating pinion 74, which through disk 75 and pawl 77, rotates adding wheel 79 a distance proportionate to the travel of the type carrierthat is, if the type carrier moves to position for printing the numeral 1, 'the adding wheel is moved one step, and if the type carrier moves to position for printing the numeral 9, the adding wheel is moved nine steps. Reverse movement of the type carrier restores the segmental rack to its original position. Each adding wheel carries a pin 80 adapted to engage with and depress the horizontal arm of a crank lever 81 loosely mounted upon a shaft 82. The vertical arm of lever 81 carries a hook pawl 83 adapted to engage with the risers of the steps on the adding The horizontal arm of lever 81 is adapted to engage with and depress a pin 84 on an arm 85 fixed on shaft 82 and connected by'a link 86 with a lever 87 adapted to be engaged and lifted by acam 88 on shaft 44. When lever 81 is depressed by engagement with a carrying pin 80 on one of the adding wheels, pawl 83 is thrown forward one step and into enga ement with a riser on the adding wheel. When the cam lifts lever- 87 it forces link 86 and arm 85' upward, thereby raising pin 84 and restoring lever 81 to the original 'position. This retracts pawl 81 and moves the adding wheel for the'next order of numerals one step, thereby carrying ten. Each add i'ng wheel acts in like manner upon the one of next higher, order.

It will be noted that the adding mechanism is driven and controlled by the same mechanism which drives and controls the wage-slip printing mechanism and the recording mechanism, and requires no additional" operation by the attendant.

Totaling mechansm.-For totaling purposes, the type carriers 137 and 137 (Fig. 13) are freed from the domination of the type selecting mechanism heretofore described and placed under the domination of other type selectin mechanism which acts upon the I steps 0 the adding wheels, instead of upon the steps of the .multiplier and multiple blocks. This requires disengagement of, the

links 36 and 36, by means of which the type carriers are positioned for recording purposes and disconnection of the arms 69 by means of which the adding mechanism is actuated. To facilitate disconnection each of the links 36 and 36*, is provided with a pin 90 adapted to take into a curved slot 91 in the type carrier and to be engaged by the walls of a notch 92 at one end of the slot. The-arms 66 and 69 have already been described as detachably connected. Mechanism for automatically disengaging and reenergizing thelinks 36 and 36*,and the arms 69 will be described after description of the type selecting mechanism.

95 indicates a shaft extending transversely of the casing, mounted to slide longitudinally and held in its idle position by means of aspring 96. Upon this shaft is loosely mounted a series of angular frames 97, normally spring pressed in'their idle position the series including a frame for each adding wheel. Each frame is provided with an arm 98 adapted to engage with the steps on an adding Wheel and an arm 99 adapted to be engaged by an arm 100 extending from one of the type carriers. By moving the rock shaft longitudinally 'the type selecting frames may be thrown in or out of alinement with the arms 100 on the type carriers. Pivoted to each type carrier, 137 and 137 is an arm 101 carrying a spring 102 held between a nut 103 at the free end of the arm and a boss 104 slidably mounted on the arm.

The type carriers being disengaged from the levers 36 and'36, and from the arms 69, and the type selecting frames in alinement with the arms 100, depression of the arms 101 will impart forward motion to the type carriers and bring the type selecting arms into engagement with the steps on the adding wheels which correspond with the amount obtained by the last addition. The steps limit the movement of the type selecting frames and consequently of the type carriers, and the connection is such that each properly positioned for printtype carrier is ing the numeral denoted by the step engaged. The springs 102 yield to compensate for the difference between the then permitted travel of the type selecting frame and its longest sweep Means for mechanically disengaging the type carriers from the domination o the previously described actuating mechanism, bringing them under the domination of the totaling mechanism, releasing them from the domination of the totaling mechanism. and restoring them to the domination of the previously described actuating mechanism, and the mechanism for actuating the totaling devices will now be described.

105 (Fig. .21) designatesa hollow shaft adapted to be rotated by means of a hand lever 106. This shaft carries a gear 107 meshing with a gear 108 fixed to a shaft 109 mounted parallel with shaft 105, the gearin being such that two rotations of shaft 105 causes one rotation of'shaft 109. Shaft 109 carries a series of cam wheels 110, 120, 130, 140 and 150. Cam wheel 110 (Figs. 13, 20) is provided with a cam groove 111 in which rides a pin or roller 112 on a lever arm 113 fixed to a rock shaft 114, and connected by a link 115, with an arm 116, pivot-ed on shaft 109 and carrying at its end a pin- 117 which'engages with a fork upon one arm of anelbow shaped dog 118 loosely mounted on shaft 72 and adapted to engage with and actuate a dog 119 depending from arm 69. Arm 116 also takes .over and is adapted to engage with boss'104 on arm 101. Upon rotation of shaft 109 carrying cam wheel 110, as the roller 114 travels up the rise in the cam groove 111, it depresses lever arm 113 which, through link 115, depresses arm 116 which rocks dog 118 which engages with dog 119 and lifts arm 69 out of engagement wit-h arm 66, thereby disconnecting the type carrier from the adding mechanism. Further travel of the roller up the incline of the cam groove further depresses arm 116,

.bringing it into engagement with the boss 104 on arm 101, thereby depressing arm 101, imparting motion to the type carrier, and, through arm 100, actuating a type selectlng frame 97 to bring the type selecting arm into engagement-with the proper step on an adding wheel. The rock shaft 114 carries a series of arms 113 connected with and adapted to actuate arms 116", and performing the same general functions as the arm 113 and its connections.

Cam wheel 120 (Figs. 13, 14, 18) 1s provided with a cam groove 121 in which rides a pin or roller 122 on an arm 123 fixed to a rock shaft 124. The arm 123 with a corresponding arm 123 carries a rod 125 which engages with the forked ends of lever arms 126 extending from cams 127, 127, etc., mounted to rock on shaft 38*. The faces of canls 127 are adapted to engage with the pins 90 on links 36 and 36, lift them out of the notches 92, hold them disengaged during the totaling operation and restore them to engagement when the totallng operation is completed. Upon rotation of the cam wheel wheels.

' by printing the" totals.

spring 120 the inward slope of the cam groove de- 1 resses arm 123, thereby rocking cam 127 into engagement with the pins 90, and the, outward slope of the cam groove rocks the cam in the reverse direction, allowing the pins to drop into their engaged position. This operation is concurrent with the re-. lease and reengagement of arm 69. Cam wheel 130 (Figs. 13, 19) has a cam'; projection 131 adapted to engage with a ping or roller 132 on an arm 133 fixed to a rock? shaft 134 which carries a like arm 133 The arms 133 and 133 carry a rod adapted; to engage the arms 66, 66*, on the type carriers and restore them to their idleposition.

Cam wheel 140 (Figs. 13, 17) has a cam': projection 141 adapted to engage a pin orf roller 142 on an elbow shaped lever arm 143- fulcrumed on shaft 72, the free a-rm ofi which is adapted to engage a lug 144 rigidly, connected with the hammer lever 50. This; arm is preferably pressed in the direction of the lug by means of a spring 145 to insure 5 quick action when the roller 142 drops on;

the cam projection. The hammer arm has a slot and pin connection with the hammeri lever, thus leaving it free to be actuated byi the lever arm 143. The hammer lever through link 64 actuates pawl 62 which,; through ratchet wheel 61 moves the record; ribbon.

'Ca-m wheel 150 (Figs. 13, 15) is provided{ with a cam groove 151 in which rides a pin; or roller 152 carried by a lever arm 153i pivotally connected with shaft 95. Rota-E tion of the cam first moves the shaft lon-Q gitudinally to bring the type selecting frames 97 into operative alinement with} arms 100 on the type carriers, and then moves the rock shaft in reverse direction to' restore the type selecting frames to their idle position.

The sequence of operations is as follows: Qam wheel 110, acting through lever arms 113, links 115, arms 116 and dogs 118, disconnects arms 69 from the type carriers. At l the same time cam 120, acting through arms 123 and 125 and cams 127, disengages the type carriers from the links 36 and 36 At the same time cam 150, acting through:

lever arm 153 and shaft 95, moves the type selecting frames 97 into alinementwith: arms 100 on the type carriers. Then earn 110, continuing its motion, depresses arms 101 bringing the type selecting arms 98 into i engagement with the steps on the adding- Thereupon cam 140, through lever arm'143, actuates the hammer lever, there- Actuation of the hammer lever,,-through link 64, actuates the pawl and moves the record strip one step. Cam 130 acting through arms 133 restores the type carriers to their idle positions, and further movement of cams 110, 120., 140 and 150 restores the other mechacomplished automatically.

nism to its original position, and places it under the domination of the links 36, 36 and the mechanism which actuates them.

Looking mecham'svm-lt is desirable to have the mechanism, which positions the type selecting fingers, properly centered, locked in position during the printing oper- T ation and released when the printing is completed. To accomplish this shaft 44 (Figs. 1 4) carries a cam Wheel 160 adapted to actuate a lever arm 161 fixed to a rock shaft 162. The rock shaft carries a lever arm 163 which carries a dog 164 adapted to engage with the notches in a rack 165 having angular teeth and fixed to, or integral with, cozgged wheel 26 which actuates the rack bar 2 nism which positions the rate bars properly centered, locked in position while the printing is being performed and released when the printing is completed. To accomplish this shaft 44 (Figs. 1, 3, 4) carries a cam wheel 170 adapted to actuate a lever arm 171 which carries dogs 172 adapted to engage with the walls of one of the projections between the notches in one of the sprocketwheels 6. The initial movement of shaft 44 brings dog 164 into engagement with the rack on wheel 26, thereby justifying and locking the mechanism which positions the type selectors, 21 and 21 and also brings dogs 172 into engagement with wheel 6, thereby justifying and locking the rate positioning mechanism. It is also desirable to mechanically stop the operation of the shaft 40, which sets in motion the printing, recording and adding mechanism, when an operation is completed and release it foranother operation," and this should be ac- It will be remembered that it requires two revolutions of this shaft to complete the sequence of operations dependent upon its motion. Consequently its motion should be stopped at the end of two revolutions and immediately released. For accomplishing this, shaft 40 (Figs. 3, 6,29, 30) is provided with a pinion 175, meshing with a spur gear 176 mounted upon a stud shaft 177. Spur gear 176'carries a cam wheel 180 adapted to engage a lug 181 on a frame 181 and thereby lift and drop the frame which carries a dog 182 adapted to engage with an abutment or stop 183. A dog 184 carried by shaft 40 is so mounted asfto engage with dog 182 as it reaches its highest point and hold it in engagement with stop 183, so long as pressure is applied to rotatethe shaft. This blocks the movement of dog 184 and consequently stops the rotation of shaft 40.

It is also desirable to have the mecha- V is completed.

against operation while the other mechanism is in operation, and to lock the other mechanism against operation While the totaling mechanism is in operation. For this purpose I mount upon shaft 109 (Figs. 4, 21, 31, 82) a wheel 190 having a cam projection 191 adapted to engage with a shoulder 193 on a slidably mounted rod 192 normally occupying a position, indicated by dotted lines, in the path of travel of the crank arm 106 on shaft 105. Rod 192 is pivotally connected with a lever 194 fixed to a rock shaft 195 which carries a dog 1.96 adapted to take into a notch in a wheel 197 fixed to shaft 44. lVhile the rod 192 is in its normal position dog 196 is out of engagement with the notch in Wheel 197 and can only be engaged when a cycle of operation When the totaling mechanism is to be used, shaft 44 being in its position of rest and dog 196 being inalinementwith the notch in wheel 197 rod 192 is moved inward thereby freeing hand wheel 106, and, through lever 19%, rocking shaft 195 and throwing dog 196 into engagement with wheel 197 which looks shaft 14 against rotation. As the totaling'shaft completes its rotation the cam projection 191 on wheel 190 engages the shoulder 193 on rod 192 and forces the rod outward into the path of travel of crank arm 106, thereby blocking further rotation of the totaling shaft, and, through lever 194: an'd rock shaft 195, disengaging dog 196 from wheel 197 and releasing shaft 44;.

I claim as my invention:

1. The combination in a mechanical calculator of movable type carriers; type movable therein; a series of elements having steps corresponding to' numerals denoting multiples of a selected multiplicand; a series of elements having steps corresponding to numerals denoting selected multipliers; type selecting mechanism movable relatively to the stepped elements, and adapted by engagement with the steps to control the position of the type carriers; means for bringing the type selecting members into operative alinement with the stepped members denoting any desired multiplier and the corresponding multiple; and means foractuating the type selectingmechanism and the type 2. The combination in a mechanical cal culator of a series of type carriers having movable type; a series of type carriers having movable type adapted to duplicate the printing of the first series; recording mechanism; a series of elements having steps corresponding to numerals denoting multiples of a selected multiplicand; aseries of elements having steps corresponding to numerals denoting selected multipliers; type selecting mechanism movable relatively to the stepped elements, and adapted by engagement With the steps to control the position of the type carriers; means for bringing the type selecting members into ope-rative alinement with the stepped members denoting any desired multiplier and the corresponding multiple; and means for actuating the type selecting mechanism, the type and the recording mechanism.

3. The combination in a mechanical calculator of movable type carriers; type movable therein; a series of elements having steps corresponding to numerals denoting multiples of a selected multiplicand; a series of elements having steps corresponding to numerals denoting selected multipliers; type select-ing mechanism movable relatively to the stepped elements, and adapted by engagement with the steps to control the position of the type. carriers; adding mechanism controlled by the type selecting mechanism; means for bringing the type selecting members into operatlve alinement with i the stepped members denoting any desired multiplier and the corresponding multiple; and means for actuating the type selecting mechanism and the type. I

4. The combination in a mechanical calculator of a series of type carriers having movable type; a series of type carriers having movable type adapted to duplicate the printing of the first series; recording mechanism; a series of elements having steps corresponding to numerals denoting multiples of a selected multiplicand; a series of elements having steps corresponding to numerals denoting selected multipliers; type selecting mechanism movable relatively to the stepped elements, and adapted by engagement with the steps to control the position of the type carriers; adding mechanism controlled by the type selecting mechanism;

means for bringing the type selecting mem-. bers into operative alinement with the stepped members denoting any desired multiplier and the corresponding multiple; and means for actuating the type selecting mechanism, the type and the recording mechanism.

5. The combination in a mechanical calculator of a series of movable type carriers; type movable therein, a series of elements having steps corresponding to numerals denoting multiples of a selected multiplicand; a series of elements having steps corresponding to numerals denoting selected mult-ipliers; type selecting mechanism movable relatively to the stepped elements, and adapted by engagement with the steps to control the position of the type carriers; recording mechanism; adding mechanism controlled by the type selecting mechanism; means'for bringing the type selecting members into operative alinement with the stepped members denoting any desired multiplier and the corresponding multiple;

tive connection with the type carriers; and

. means for operating the'totaling mechanism.

6. The combination in a mechanical calculator ofaseries of type carriers having movable type; a series of type carriers having movable type adapted to duplicate the printing of the firsttseries; a series of ele ments having steps corresponding to numerals denoting multiples of a selected multiplicand; a series of elements having steps corresponding to numerals denoting selected multipliers; type selecting mechanism movable relatively to the stepped elements, and adapted by engagement with the steps to control the position of the type carriers; recording mechanism; adding mechanism controlled by the type selecting mechanism; means for bringing the type selecting members into operative alinement with the stepped. members denoting any desired multiplier and the corresponding multiple; means for actuating the type selecting mechanism and the type; totaling mechanism adapted to be connected with and to control the position of the type carriers; means for bringing the totaling. mechanism into operative connect-ion with one series of the type carriers; and means'for operating the totaling mechanism;

7 The combination in a mechanical calculator of a series of type carriers having movable type; recording mechanism; a series of elements having steps corresponding to numerals denoting multiples of a selected multiplicand; a series of elements having steps corresponding to numerals denoting selected multipliers; type selecting mechanism movable relatively to the stepped elements, and adapted by engagement with the steps to control the position of the type carriers; adding mechanism controlled by the type selecting mechanism means for bringingthe type selecting members into operative alinement. with the stepped members denoting any desired multiplier and the corresponding multiple; and. means for actuating the type. selecting mechanism, the type and the recording mechanism.

8. The combination in a mechanical calculator of a series of type carriers having movable type; a series of elements having steps corresponding to numerals denoting multiples ota selected multiplicand; a series of elements having steps corresponding to nu merals denoting selected multipliers; type selecting mechanism movable relatively to the stepped elements, and'adapted by engagement with the steps to control the position of'the type carriers; means for bringing the type selecting ,members into operative alinement with the stepped members denoting any desired multiplier and the corresponding multiple; recording mechanism; and means for actuating the type selecting mechanism, the type. and the recording mechanism.

9. The combination in a mechanical calculator of a series of movable type carriers; type movable therein; a traveling carrier carrying independent series of elements each element in a series having steps corresponding to numerals denoting multiples of a selected multiplicand; a series of elements having steps corresponding to numerals denoting selected multipliers; means for bringing the series denoting multiples of any of the multiplicands into operative alinement with the multiplier series; type selecting mechanism movable relatively to the stepped elements, and adapted by engagement with the steps to control the position'of the type carriers; means for bringing the type selecting mechanism into operative alinement with the stepped members denoting any desired multiplier and the corresponding multiple; and means foractuating the type selecting mechanism and the type culator of movable type carriers; type movable therein; a traveling carrier carrying independent series of elementseach element in'a series having steps corresponding to numerals denoting multiples of a selected multiplicand; a series of elements having steps corresponding to numerals denoting selected multipliers; means for bringing the series denoting multiples of any of the multiplicands into operative alinement with the multiplier series; type selecting mechanism movable relatively to the stepped elements, and adapted by engagement with the steps to control the position of the type carriers; means for bringipg the type selecting mechanism into operative alinement with the stepped members denoting any desired multiplier and the corresponding multiple; recording mechanism; and means for actuating the type selecting mechanism, the type and the recording mechanism.

11. The combination in a mechanical calculator of a series of type carriers having movable type; a series of type carriers 'lfa'ving movable type adapted to duplicate the printing of the first series; a traveling car- 10. Thecombination in a mechanical cal rier carrying independent series of elements gagement with the steps to control the position of the type carriers; means for bringing the type selecting mechanism into operative alinement with the stepped members denoting any desired multiplier and the corresponding multiple; recording mechanism; and means for'actuating the type selecting mechanism, the type and the recording mechanism.

12. The combination in a mechanical calculator of a series of movable type carriers; type movable therein; a traveling carrier carrying independent series of elements each element in a series having steps corresponding to numerals denoting multiples of a selected multiplicand; a series of elements 1 having steps corresponding to numerals denoting selected multipliers; means for bringing the series denoting multiples of any of the multiplicands into operative alinement with the multiplier series; type selecting mechanism movable relatively to the stepped eleme ts, and adapted by engagement with the steps to control the vposition of the type carriers; adding mechanism controlled by the type selecting mechanism; means for bringing the type selecting members into operative alinement with the stepped members denoting any desired multiplier and the corresponding multiple; and means for actuating the type selecting mechanism and the type. V

13. The combination in a mechanical calculator of a series of movable type carriers; type movable therein; a traveling carrier carrying independent series of elements each element in a series having steps corresponding to numerals denoting multiples of a selected multiplicand; a series otelements having steps corresponding to numerals denoting selected multipliers; means for bringing the series denoting multiples of any of the multiplicands into operative alinement with the multiplier series; type selecting mechanism movable relatively to the stepped elements, and adapted by engagement with the steps to control the position of the type carriers; adding mechanism controlled by the type selectlng mechanism; means for bringing the type selecting members into operative alinement with the stepped meml bers denoting any desired multiplier and the corresponding multiple; recording mechanism; and means for actuating the type selecting mechanism, the typeand the recording mechanism.

14. The combination in a mechanical calculator of aseries of type carriers having movable type; aseries of type carriers having movable ty 'ie" adapted to duplicatethe prmtingof the first series; a traveling carrier carrying independent series of elements each element in a series having steps corresponding to numerals denotingmultiples of.

--selected mu p v "series denoting multiples of any of the mul a selected inultiplicand; a series of elements elements, and adapted by engagement with the steps to control the position of the type carriers; adding mechanism controlled by the type selecting mechanism; means for bringing the type selecting members into operative alinement with the stepped members denoting any desired multiplier and the corresponding multiple; recording mechanism; and means for actuating the type selecting mechanism, the type and the recording mechanism.

15. Thecombination in a mechanical calculator. of a series of movabletype carriers; type movable therein; a traveling carrier carrying independent series of elements each element in a series having steps corresponding to numerals denoting. multiples of a selected multiplicand; a series of elements having steps corresponding to numerals denoting selected multipliers; means for bringing the series denoting multiples ofany. of the multiplicands intooperative alinement with the multiplier series; type selecting mechanism movable relatively to the stepped elements,and adapted by engagement with the steps. to control the position of the type carriers; adding mechanismvcontrolled by the type selecting mechanism; means for bringing the type selecting members into operative alinement with the stepped mem-' type; totaling mechanism adapted to be connected, with and to control the position of the type carriers; means for bringing the totaling mechanism into operative connection with the type carriers; and means for operating the totaling mechanism.

' 16. The combinationina mechanical calculator of a series of type carriers; type movable therein; a traveling carrier carrying independent series of elements each element in a series having steps corresponding to numerals denoting multiples of a selected multiplican a series of elements having steps corre 'f ding to. numerals denoting liers; means for bringing the tiplicands into operative alinementwith the movable relatively to the stepped elements, and adapted by engagement with the steps .multiplier series; type. selecting mechanism to control'the position of the'type carriers; recording mechanism; adding mechanism controlled by the type selecting mechanism; means for bringing the type selecting members into operative alinement with the 

